ON Semiconductor P6KE7.5ARL TVS Diodes

The P6KE7.5ARL from ON Semiconductor is a highly efficient Transient Voltage Suppressor (TVS) diode designed to protect sensitive electronic equipment from voltage transients induced by system inductive load switching and lightning. This robust diode is specifically crafted to safeguard voltage-sensitive components which can be compromised by these sudden and extreme voltage fluctuations.

Key Features

• Peak Pulse Power Dissipation: The P6KE7.5ARL TVS diode comes with an impressive 600W peak pulse power capability with a 10/1000μs waveform, ensuring reliable performance during transient voltage spikes.
• Breakdown Voltage Range: With a breakdown voltage range from 6.4V to 7.14V, this diode offers precision protection for circuits operating near its rated voltage.
• Low Incremental Surge Resistance: Its design includes an extremely low incremental surge resistance, which improves its ability to respond to and absorb high-energy voltage transients.
• Reverse Leakage: It boasts a low leakage current of less than 1µA above 10V, minimizing power loss when the diode is in its standby state and enhancing the overall efficiency of the system it protects.
• Response Time: The diode's response time is virtually instantaneous, providing swift and effective protection against voltage transients.
• Operating Temperature: The P6KE7.5ARL can operate over a temperature range of -55°C to +175°C, making it suitable for a wide range of environmental conditions.

Applications

The P6KE7.5ARL is ideal for protecting integrated circuits, MOSFETs, signal lines, and other sensitive electronics in various applications, including:

• Industrial systems
• Consumer electronics
• Telecommunication devices
• Power supply units
• Automotive electronics

With its robust construction and reliable performance, the P6KE7.5ARL TVS diode from ON Semiconductor is a preferred choice for engineers and designers looking to enhance the durability and longevity of their electronic systems against transient voltage events.